610 lines
15 KiB
Go
610 lines
15 KiB
Go
package oss
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import (
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"bytes"
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"errors"
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"fmt"
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"hash/crc32"
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"hash/crc64"
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"io"
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"net/http"
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"os"
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"runtime"
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"strconv"
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"strings"
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"time"
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"unicode/utf8"
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)
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var sys_name string
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var sys_release string
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var sys_machine string
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var (
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escQuot = []byte(""") // shorter than """
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escApos = []byte("'") // shorter than "'"
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escAmp = []byte("&")
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escLT = []byte("<")
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escGT = []byte(">")
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escTab = []byte("	")
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escNL = []byte("
")
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escCR = []byte("
")
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escFFFD = []byte("\uFFFD") // Unicode replacement character
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)
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func init() {
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sys_name = runtime.GOOS
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sys_release = "-"
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sys_machine = runtime.GOARCH
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}
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// userAgent gets user agent
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// It has the SDK version information, OS information and GO version
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func userAgent() string {
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sys := getSysInfo()
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return fmt.Sprintf("aliyun-sdk-go/%s (%s/%s/%s;%s)", Version, sys.name,
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sys.release, sys.machine, runtime.Version())
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}
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type sysInfo struct {
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name string // OS name such as windows/Linux
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release string // OS version 2.6.32-220.23.2.ali1089.el5.x86_64 etc
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machine string // CPU type amd64/x86_64
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}
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// getSysInfo gets system info
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// gets the OS information and CPU type
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func getSysInfo() sysInfo {
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return sysInfo{name: sys_name, release: sys_release, machine: sys_machine}
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}
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// GetRangeConfig gets the download range from the options.
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func GetRangeConfig(options []Option) (*UnpackedRange, error) {
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rangeOpt, err := FindOption(options, HTTPHeaderRange, nil)
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if err != nil || rangeOpt == nil {
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return nil, err
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}
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return ParseRange(rangeOpt.(string))
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}
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// UnpackedRange
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type UnpackedRange struct {
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HasStart bool // Flag indicates if the start point is specified
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HasEnd bool // Flag indicates if the end point is specified
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Start int64 // Start point
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End int64 // End point
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}
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// InvalidRangeError returns invalid range error
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func InvalidRangeError(r string) error {
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return fmt.Errorf("InvalidRange %s", r)
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}
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func GetRangeString(unpackRange UnpackedRange) string {
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var strRange string
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if unpackRange.HasStart && unpackRange.HasEnd {
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strRange = fmt.Sprintf("%d-%d", unpackRange.Start, unpackRange.End)
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} else if unpackRange.HasStart {
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strRange = fmt.Sprintf("%d-", unpackRange.Start)
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} else if unpackRange.HasEnd {
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strRange = fmt.Sprintf("-%d", unpackRange.End)
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}
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return strRange
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}
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// ParseRange parse various styles of range such as bytes=M-N
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func ParseRange(normalizedRange string) (*UnpackedRange, error) {
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var err error
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hasStart := false
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hasEnd := false
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var start int64
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var end int64
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// Bytes==M-N or ranges=M-N
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nrSlice := strings.Split(normalizedRange, "=")
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if len(nrSlice) != 2 || nrSlice[0] != "bytes" {
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return nil, InvalidRangeError(normalizedRange)
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}
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// Bytes=M-N,X-Y
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rSlice := strings.Split(nrSlice[1], ",")
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rStr := rSlice[0]
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if strings.HasSuffix(rStr, "-") { // M-
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startStr := rStr[:len(rStr)-1]
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start, err = strconv.ParseInt(startStr, 10, 64)
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if err != nil {
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return nil, InvalidRangeError(normalizedRange)
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}
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hasStart = true
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} else if strings.HasPrefix(rStr, "-") { // -N
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len := rStr[1:]
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end, err = strconv.ParseInt(len, 10, 64)
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if err != nil {
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return nil, InvalidRangeError(normalizedRange)
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}
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if end == 0 { // -0
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return nil, InvalidRangeError(normalizedRange)
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}
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hasEnd = true
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} else { // M-N
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valSlice := strings.Split(rStr, "-")
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if len(valSlice) != 2 {
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return nil, InvalidRangeError(normalizedRange)
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}
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start, err = strconv.ParseInt(valSlice[0], 10, 64)
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if err != nil {
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return nil, InvalidRangeError(normalizedRange)
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}
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hasStart = true
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end, err = strconv.ParseInt(valSlice[1], 10, 64)
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if err != nil {
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return nil, InvalidRangeError(normalizedRange)
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}
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hasEnd = true
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}
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return &UnpackedRange{hasStart, hasEnd, start, end}, nil
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}
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// AdjustRange returns adjusted range, adjust the range according to the length of the file
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func AdjustRange(ur *UnpackedRange, size int64) (start, end int64) {
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if ur == nil {
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return 0, size
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}
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if ur.HasStart && ur.HasEnd {
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start = ur.Start
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end = ur.End + 1
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if ur.Start < 0 || ur.Start >= size || ur.End > size || ur.Start > ur.End {
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start = 0
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end = size
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}
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} else if ur.HasStart {
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start = ur.Start
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end = size
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if ur.Start < 0 || ur.Start >= size {
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start = 0
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}
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} else if ur.HasEnd {
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start = size - ur.End
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end = size
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if ur.End < 0 || ur.End > size {
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start = 0
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end = size
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}
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}
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return
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}
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// GetNowSec returns Unix time, the number of seconds elapsed since January 1, 1970 UTC.
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// gets the current time in Unix time, in seconds.
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func GetNowSec() int64 {
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return time.Now().Unix()
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}
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// GetNowNanoSec returns t as a Unix time, the number of nanoseconds elapsed
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// since January 1, 1970 UTC. The result is undefined if the Unix time
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// in nanoseconds cannot be represented by an int64. Note that this
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// means the result of calling UnixNano on the zero Time is undefined.
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// gets the current time in Unix time, in nanoseconds.
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func GetNowNanoSec() int64 {
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return time.Now().UnixNano()
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}
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// GetNowGMT gets the current time in GMT format.
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func GetNowGMT() string {
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return time.Now().UTC().Format(http.TimeFormat)
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}
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// FileChunk is the file chunk definition
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type FileChunk struct {
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Number int // Chunk number
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Offset int64 // Chunk offset
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Size int64 // Chunk size.
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}
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// SplitFileByPartNum splits big file into parts by the num of parts.
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// Split the file with specified parts count, returns the split result when error is nil.
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func SplitFileByPartNum(fileName string, chunkNum int) ([]FileChunk, error) {
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if chunkNum <= 0 || chunkNum > 10000 {
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return nil, errors.New("chunkNum invalid")
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}
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file, err := os.Open(fileName)
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if err != nil {
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return nil, err
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}
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defer file.Close()
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stat, err := file.Stat()
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if err != nil {
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return nil, err
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}
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if int64(chunkNum) > stat.Size() {
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return nil, errors.New("oss: chunkNum invalid")
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}
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var chunks []FileChunk
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var chunk = FileChunk{}
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var chunkN = (int64)(chunkNum)
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for i := int64(0); i < chunkN; i++ {
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chunk.Number = int(i + 1)
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chunk.Offset = i * (stat.Size() / chunkN)
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if i == chunkN-1 {
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chunk.Size = stat.Size()/chunkN + stat.Size()%chunkN
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} else {
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chunk.Size = stat.Size() / chunkN
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}
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chunks = append(chunks, chunk)
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}
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return chunks, nil
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}
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// SplitFileByPartSize splits big file into parts by the size of parts.
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// Splits the file by the part size. Returns the FileChunk when error is nil.
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func SplitFileByPartSize(fileName string, chunkSize int64) ([]FileChunk, error) {
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if chunkSize <= 0 {
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return nil, errors.New("chunkSize invalid")
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}
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file, err := os.Open(fileName)
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if err != nil {
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return nil, err
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}
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defer file.Close()
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stat, err := file.Stat()
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if err != nil {
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return nil, err
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}
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var chunkN = stat.Size() / chunkSize
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if chunkN >= 10000 {
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return nil, errors.New("Too many parts, please increase part size")
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}
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var chunks []FileChunk
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var chunk = FileChunk{}
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for i := int64(0); i < chunkN; i++ {
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chunk.Number = int(i + 1)
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chunk.Offset = i * chunkSize
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chunk.Size = chunkSize
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chunks = append(chunks, chunk)
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}
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if stat.Size()%chunkSize > 0 {
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chunk.Number = len(chunks) + 1
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chunk.Offset = int64(len(chunks)) * chunkSize
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chunk.Size = stat.Size() % chunkSize
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chunks = append(chunks, chunk)
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}
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return chunks, nil
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}
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// GetPartEnd calculates the end position
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func GetPartEnd(begin int64, total int64, per int64) int64 {
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if begin+per > total {
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return total - 1
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}
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return begin + per - 1
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}
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// CrcTable returns the table constructed from the specified polynomial
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var CrcTable = func() *crc64.Table {
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return crc64.MakeTable(crc64.ECMA)
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}
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// CrcTable returns the table constructed from the specified polynomial
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var crc32Table = func() *crc32.Table {
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return crc32.MakeTable(crc32.IEEE)
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}
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// choiceTransferPartOption choices valid option supported by Uploadpart or DownloadPart
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func ChoiceTransferPartOption(options []Option) []Option {
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var outOption []Option
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listener, _ := FindOption(options, progressListener, nil)
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if listener != nil {
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outOption = append(outOption, Progress(listener.(ProgressListener)))
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}
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payer, _ := FindOption(options, HTTPHeaderOssRequester, nil)
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if payer != nil {
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outOption = append(outOption, RequestPayer(PayerType(payer.(string))))
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}
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versionId, _ := FindOption(options, "versionId", nil)
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if versionId != nil {
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outOption = append(outOption, VersionId(versionId.(string)))
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}
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trafficLimit, _ := FindOption(options, HTTPHeaderOssTrafficLimit, nil)
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if trafficLimit != nil {
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speed, _ := strconv.ParseInt(trafficLimit.(string), 10, 64)
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outOption = append(outOption, TrafficLimitHeader(speed))
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}
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respHeader, _ := FindOption(options, responseHeader, nil)
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if respHeader != nil {
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outOption = append(outOption, GetResponseHeader(respHeader.(*http.Header)))
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}
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return outOption
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}
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// ChoiceCompletePartOption choices valid option supported by CompleteMulitiPart
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func ChoiceCompletePartOption(options []Option) []Option {
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var outOption []Option
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listener, _ := FindOption(options, progressListener, nil)
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if listener != nil {
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outOption = append(outOption, Progress(listener.(ProgressListener)))
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}
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payer, _ := FindOption(options, HTTPHeaderOssRequester, nil)
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if payer != nil {
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outOption = append(outOption, RequestPayer(PayerType(payer.(string))))
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}
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acl, _ := FindOption(options, HTTPHeaderOssObjectACL, nil)
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if acl != nil {
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outOption = append(outOption, ObjectACL(ACLType(acl.(string))))
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}
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callback, _ := FindOption(options, HTTPHeaderOssCallback, nil)
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if callback != nil {
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outOption = append(outOption, Callback(callback.(string)))
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}
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callbackVar, _ := FindOption(options, HTTPHeaderOssCallbackVar, nil)
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if callbackVar != nil {
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outOption = append(outOption, CallbackVar(callbackVar.(string)))
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}
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respHeader, _ := FindOption(options, responseHeader, nil)
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if respHeader != nil {
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outOption = append(outOption, GetResponseHeader(respHeader.(*http.Header)))
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}
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forbidOverWrite, _ := FindOption(options, HTTPHeaderOssForbidOverWrite, nil)
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if forbidOverWrite != nil {
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if forbidOverWrite.(string) == "true" {
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outOption = append(outOption, ForbidOverWrite(true))
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} else {
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outOption = append(outOption, ForbidOverWrite(false))
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}
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}
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notification, _ := FindOption(options, HttpHeaderOssNotification, nil)
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if notification != nil {
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outOption = append(outOption, SetHeader(HttpHeaderOssNotification, notification))
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}
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return outOption
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}
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// ChoiceAbortPartOption choices valid option supported by AbortMultipartUpload
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func ChoiceAbortPartOption(options []Option) []Option {
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var outOption []Option
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payer, _ := FindOption(options, HTTPHeaderOssRequester, nil)
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if payer != nil {
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outOption = append(outOption, RequestPayer(PayerType(payer.(string))))
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}
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respHeader, _ := FindOption(options, responseHeader, nil)
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if respHeader != nil {
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outOption = append(outOption, GetResponseHeader(respHeader.(*http.Header)))
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}
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return outOption
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}
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// ChoiceHeadObjectOption choices valid option supported by HeadObject
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func ChoiceHeadObjectOption(options []Option) []Option {
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var outOption []Option
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// not select HTTPHeaderRange to get whole object length
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payer, _ := FindOption(options, HTTPHeaderOssRequester, nil)
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if payer != nil {
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outOption = append(outOption, RequestPayer(PayerType(payer.(string))))
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}
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versionId, _ := FindOption(options, "versionId", nil)
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if versionId != nil {
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outOption = append(outOption, VersionId(versionId.(string)))
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}
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respHeader, _ := FindOption(options, responseHeader, nil)
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if respHeader != nil {
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outOption = append(outOption, GetResponseHeader(respHeader.(*http.Header)))
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}
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return outOption
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}
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func CheckBucketName(bucketName string) error {
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nameLen := len(bucketName)
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if nameLen < 3 || nameLen > 63 {
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return fmt.Errorf("bucket name %s len is between [3-63],now is %d", bucketName, nameLen)
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}
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for _, v := range bucketName {
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if !(('a' <= v && v <= 'z') || ('0' <= v && v <= '9') || v == '-') {
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return fmt.Errorf("bucket name %s can only include lowercase letters, numbers, and -", bucketName)
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}
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}
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if bucketName[0] == '-' || bucketName[nameLen-1] == '-' {
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return fmt.Errorf("bucket name %s must start and end with a lowercase letter or number", bucketName)
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}
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return nil
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}
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func CheckObjectName(objectName string) error {
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if len(objectName) == 0 {
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return fmt.Errorf("object name is empty")
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}
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return nil
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}
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func GetReaderLen(reader io.Reader) (int64, error) {
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var contentLength int64
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var err error
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switch v := reader.(type) {
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case *bytes.Buffer:
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contentLength = int64(v.Len())
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case *bytes.Reader:
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contentLength = int64(v.Len())
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case *strings.Reader:
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contentLength = int64(v.Len())
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case *os.File:
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fInfo, fError := v.Stat()
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if fError != nil {
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err = fmt.Errorf("can't get reader content length,%s", fError.Error())
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} else {
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contentLength = fInfo.Size()
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}
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case *io.LimitedReader:
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contentLength = int64(v.N)
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case *LimitedReadCloser:
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contentLength = int64(v.N)
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default:
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err = fmt.Errorf("can't get reader content length,unkown reader type")
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}
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return contentLength, err
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}
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func LimitReadCloser(r io.Reader, n int64) io.Reader {
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var lc LimitedReadCloser
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lc.R = r
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lc.N = n
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return &lc
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}
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// LimitedRC support Close()
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type LimitedReadCloser struct {
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io.LimitedReader
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}
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func (lc *LimitedReadCloser) Close() error {
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if closer, ok := lc.R.(io.ReadCloser); ok {
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return closer.Close()
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}
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return nil
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}
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type DiscardReadCloser struct {
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RC io.ReadCloser
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Discard int
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}
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func (drc *DiscardReadCloser) Read(b []byte) (int, error) {
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n, err := drc.RC.Read(b)
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if drc.Discard == 0 || n <= 0 {
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return n, err
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}
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if n <= drc.Discard {
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drc.Discard -= n
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return 0, err
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}
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realLen := n - drc.Discard
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copy(b[0:realLen], b[drc.Discard:n])
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drc.Discard = 0
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return realLen, err
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}
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func (drc *DiscardReadCloser) Close() error {
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closer, ok := drc.RC.(io.ReadCloser)
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if ok {
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return closer.Close()
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}
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return nil
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}
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func ConvertEmptyValueToNil(params map[string]interface{}, keys []string) {
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for _, key := range keys {
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value, ok := params[key]
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if ok && value == "" {
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// convert "" to nil
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params[key] = nil
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}
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}
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}
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func EscapeLFString(str string) string {
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var log bytes.Buffer
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for i := 0; i < len(str); i++ {
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if str[i] != '\n' {
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log.WriteByte(str[i])
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} else {
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log.WriteString("\\n")
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}
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}
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return log.String()
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}
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// EscapeString writes to p the properly escaped XML equivalent
|
|
// of the plain text data s.
|
|
func EscapeXml(s string) string {
|
|
var p strings.Builder
|
|
var esc []byte
|
|
hextable := "0123456789ABCDEF"
|
|
escPattern := []byte("�")
|
|
last := 0
|
|
for i := 0; i < len(s); {
|
|
r, width := utf8.DecodeRuneInString(s[i:])
|
|
i += width
|
|
switch r {
|
|
case '"':
|
|
esc = escQuot
|
|
case '\'':
|
|
esc = escApos
|
|
case '&':
|
|
esc = escAmp
|
|
case '<':
|
|
esc = escLT
|
|
case '>':
|
|
esc = escGT
|
|
case '\t':
|
|
esc = escTab
|
|
case '\n':
|
|
esc = escNL
|
|
case '\r':
|
|
esc = escCR
|
|
default:
|
|
if !isInCharacterRange(r) || (r == 0xFFFD && width == 1) {
|
|
if r >= 0x00 && r < 0x20 {
|
|
escPattern[3] = hextable[r>>4]
|
|
escPattern[4] = hextable[r&0x0f]
|
|
esc = escPattern
|
|
} else {
|
|
esc = escFFFD
|
|
}
|
|
break
|
|
}
|
|
continue
|
|
}
|
|
p.WriteString(s[last : i-width])
|
|
p.Write(esc)
|
|
last = i
|
|
}
|
|
p.WriteString(s[last:])
|
|
return p.String()
|
|
}
|
|
|
|
// Decide whether the given rune is in the XML Character Range, per
|
|
// the Char production of https://www.xml.com/axml/testaxml.htm,
|
|
// Section 2.2 Characters.
|
|
func isInCharacterRange(r rune) (inrange bool) {
|
|
return r == 0x09 ||
|
|
r == 0x0A ||
|
|
r == 0x0D ||
|
|
r >= 0x20 && r <= 0xD7FF ||
|
|
r >= 0xE000 && r <= 0xFFFD ||
|
|
r >= 0x10000 && r <= 0x10FFFF
|
|
}
|